Reactor control having transient mitigation system
First Claim
1. A reactor control system for controlling a nuclear reactor, comprising:
- first and second monitors for monitoring operation of said reactor, said first and second monitors respectively providing first and second signals respectively representing the operative values for first and second monitoring parameters for operation of said reactor;
a feedback control system having a control parameter for controlling operation of said reactor;
a transient mitigation system integrated with said feedback control system for automatically adjusting said control parameter to mitigate abnormal behavior of one of said first and second monitoring parameters, said transient mitigation system comprising;
a data base containing a first predetermined membership function for said first monitoring parameter, a second predetermined membership function for said second monitoring parameter and a third predetermined membership function for said control parameter, said first membership function including a plurality of discrete adjacent ranges collectively covering an entire range of parameter values from a minimum parameter value to a maximum parameter value of said first monitoring parameter, said second membership function including a plurality of discrete adjacent ranges collectively covering an entire range of parameter values from a minimum parameter value to a maximum parameter value of said second monitoring parameter, and said third membership function including a plurality of discrete adjacent ranges collectively covering an entire range of parameter values from a minimum parameter value to a maximum parameter value of said control parameter, with each of said ranges having respective membership values, wherein at least two of said ranges in each of said first, second and third membership functions are generally trapezoidal in form with leading and trailing ramps defining a range of membership values from a minimum membership value to a maximum membership value, and with a plateau extending between said ramps defining full membership at said maximum membership value;
means for encoding operatively coupled to said data base and said first and second monitors for receiving said first and second monitoring parameter signals and effective for identifying membership ranges and membership values based on each of said first and second monitoring parameter signals;
means operatively coupled to said encoding means for applying a plurality of predetermined fuzzy logic control rules to select at least one range of said third membership function based on said ranges and membership values of said first and second membership functions identified by said encoding means in response to said first and second monitoring parameter signals; and
means operatively coupled to said selecting means, said data base, and said feedback control system for decoding said at least one selected range of said third membership function to provide a control signal representing a singular mitigating value of said control parameter for mitigating said monitoring parameter abnormal behavior.
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Abstract
A transient mitigation system and method of operation is provided for a nuclear reactor having a reactor core. A plurality of monitors monitor operation of the reactor. A plurality of independent feedback control systems control respective reactor operations. The transient mitigation system is integrated with the control systems for automatically adjusting a selected one thereof to mitigate abnormal behavior of the monitored operations. A data base contains predetermined membership functions of monitoring and control parameters, each membership function including a plurality of discrete adjacent ranges having respective values. An encoder identifies membership ranges and values for respective singular monitoring parameter values which are evaluated in predetermined fuzzy control rules to select a control parameter and membership range to mitigate the abnormal behavior. A decoder provides a single value mitigating signal for the selected control parameter range to mitigate the abnormal behavior.
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Citations
12 Claims
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1. A reactor control system for controlling a nuclear reactor, comprising:
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first and second monitors for monitoring operation of said reactor, said first and second monitors respectively providing first and second signals respectively representing the operative values for first and second monitoring parameters for operation of said reactor; a feedback control system having a control parameter for controlling operation of said reactor; a transient mitigation system integrated with said feedback control system for automatically adjusting said control parameter to mitigate abnormal behavior of one of said first and second monitoring parameters, said transient mitigation system comprising; a data base containing a first predetermined membership function for said first monitoring parameter, a second predetermined membership function for said second monitoring parameter and a third predetermined membership function for said control parameter, said first membership function including a plurality of discrete adjacent ranges collectively covering an entire range of parameter values from a minimum parameter value to a maximum parameter value of said first monitoring parameter, said second membership function including a plurality of discrete adjacent ranges collectively covering an entire range of parameter values from a minimum parameter value to a maximum parameter value of said second monitoring parameter, and said third membership function including a plurality of discrete adjacent ranges collectively covering an entire range of parameter values from a minimum parameter value to a maximum parameter value of said control parameter, with each of said ranges having respective membership values, wherein at least two of said ranges in each of said first, second and third membership functions are generally trapezoidal in form with leading and trailing ramps defining a range of membership values from a minimum membership value to a maximum membership value, and with a plateau extending between said ramps defining full membership at said maximum membership value; means for encoding operatively coupled to said data base and said first and second monitors for receiving said first and second monitoring parameter signals and effective for identifying membership ranges and membership values based on each of said first and second monitoring parameter signals; means operatively coupled to said encoding means for applying a plurality of predetermined fuzzy logic control rules to select at least one range of said third membership function based on said ranges and membership values of said first and second membership functions identified by said encoding means in response to said first and second monitoring parameter signals; and means operatively coupled to said selecting means, said data base, and said feedback control system for decoding said at least one selected range of said third membership function to provide a control signal representing a singular mitigating value of said control parameter for mitigating said monitoring parameter abnormal behavior. - View Dependent Claims (2, 3, 4)
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5. A method for controlling the operation of a nuclear reactor in dependence on first and second monitoring parameter input signals respectively received from first and second monitors placed inside the reactor, comprising the steps of:
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providing a data base containing a first predetermined membership function for said first monitoring parameter, a second predetermined membership function for said second monitoring parameter and a third predetermined membership function for a control parameter, said first membership function including a plurality of discrete adjacent ranges collectively covering an entire range of parameter values from a minimum parameter value to a maximum parameter value of said first monitoring parameter, said second membership function including a plurality of discrete adjacent ranges collectively covering an entire range of parameter values from a minimum parameter value to a maximum parameter value of said second monitoring parameter, and said third membership function including plurality of discrete adjacent ranges collectively covering an entire range of parameter values from a minimum parameter value to a maximum parameter value of said control parameter, with each of said ranges having respective membership values, wherein at least two of said ranges in each of said first, second and third membership functions are generally trapezoidal in form with leading and trailing ramps defining a range of membership values from a minimum membership value to a maximum membership value, and with a plateau extending between said ramps defining full membership at said maximum membership value;
p1 encoding each of said first and second monitoring parameter signals based on said data base to identify ranges and membership values of said first and second membership functions;applying a plurality of predetermined fuzzy logic control rules to select at least one range of said third membership function based on said ranges and membership values of said identified first and second membership functions in response to said first and second monitoring parameter signals; and decoding said at least one selected range of said third membership function to provide a control signal representing a singular mitigating value of said control parameter for mitigating said monitoring parameter abnormal behavior. - View Dependent Claims (6, 7, 8)
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9. For a nuclear reactor including a reactor core and a plurality of monitors for monitoring operation of said reactor, each monitor providing a signal for a respective monitoring parameter, a transient mitigation system comprising:
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a data base containing a plurality of predetermined membership functions for said monitoring parameters and a control parameter, each of said membership functions including a plurality of discrete adjacent ranges collectively covering predetermined minimum to maximum values of said monitoring parameters and said control parameter, with each of said ranges having respective membership values; means for encoding said monitoring parameter signals for identifying membership ranges and values thereof; means for selecting said control parameter to mitigate said monitoring parameter abnormal behavior, said selecting means including a plurality of predetermined fuzzy logic control rules associated with each primary one of said monitoring parameters and a preselected related secondary one of said monitoring parameters to select at least one range of said control parameter based on said membership ranges and values; and means for decoding said selected control parameter range for providing a singular mitigating signal for mitigating said abnormal behavior wherein at least two of said ranges in each of said membership functions are generally trapezoidal in form with spaced apart leading and trailing ramps defining partial membership values from minimum to maximum values, and with a plateau extending between said ramps defining full membership at said maximum value. - View Dependent Claims (10, 11, 12)
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Specification